DE2515280C3 - Device for connecting shafts - Google Patents

Description

The invention relates to a device for connecting and locking a first shaft to a second Larger diameter shaft including the connection of one mounted on the second shaft Reduction gear with the first shaft, wherein the second shaft is a cylindrical hollow shaft, which with Areas is provided which extend in the axial direction away from the housing of the reduction gear, and wherein the first Welie extends through the hollow shaft • i, with a slotted clamping ring with a Inner bore for receiving the first shaft and an outer conical shoulder part, a support ring, the inner bore of which has a region which engages with the second shaft

ίο located, with funds to put the support ring on the second

To clamp shaft, and with center to clamp ring

to pull in the axial direction against the support ring and thereby clamp on the first shaft.

A device of the type described above

has become known from US-PS 35 90 652. In this known device this becomes conical formed shoulder part of the slotted clamping ring against a conical area of the inner bore the hollow shaft of the reduction gear pressed when the clamping ring with the support ring connecting set screws are tightened. The conical area of the clamping ring is located thus in direct contact with the hollow shaft, which has the disadvantage that the clamping ring on the hollow shaft can rust.

The invention is based on the object of providing the device of the type described at the outset in this way improve that the risk of the clamping ring seizing with the outer shaft is avoided.

This object is achieved according to the invention in a device described at the outset in that the Support ring is slotted and has a conical area of its inner bore that is complementary to the conical shoulder part of the clamping ring

J5 is formed, is in engagement therewith and when the rings are pulled against one another, the clamping ring is compressed and thereby clamped on the same causes on the first shaft, and that the means for clamping the support ring on the second Act on the shaft in the radial direction and at the same time clamp the support ring onto the clamping ring.

The device designed according to the invention is distinguished from the known embodiment essentially in that in addition to the slotted clamping ring also a slotted support ring is used and that the conical formed shoulder part of the clamping ring with a conical area of the inner bore of the support ring is in engagement. An immediate one

so there is no contact of the conical shoulder part of the clamping ring with the inner bore of the outer shaft more available. In addition, the means for clamping the support ring act on the second shaft at Subject of the invention in the radial direction and at the same time clamp the support ring onto the clamping ring. That means that when the support ring is tightened and when the clamping ring is drawn in, the latter in Compressed in the radial direction and pressed against the shaft of smaller diameter. It should be If the two rings seize, they can easily be dismantled and replaced.

Another advantage of the solution according to the invention is that it is extremely versatile, because for the use of inner shafts with different diameters only clamping rings with different Bores must be used, while their outer shape and the support ring can remain unchanged. Low tolerances

can be compensated by both tightening the support ring and pulling in the clamping ring will.

In addition to the prior art, reference is still made to DE-GM 7013 424. In this publication a hub attachment with a central clamping screw is described, in which, however, in contrast to the invention a clamping ring is not pressed from the outside against a shaft, but from the inside against the Bore wall of a hub defines the support ring axially when tightening while in the invention remains, the clamping ring is displaced in the known solution when tightening in the axial direction, whereby clamping of the clamping ring on the shaft is achieved. In contrast, the clamping becomes of the KJemmringes on the shaft in the invention Solution by axially pulling in the clamping ring itself and by tightening the radially Support ring achieved

Advantageous embodiments of the subject matter of the invention are described in the subclaims.

In a special embodiment of the invention, a wedge with a specially designed Cross-section known as the "Thunderbird Wedge" in conjunction with the keyways apply. As a result of an effective widening, the wedge has a improved resistance to overspeeding.

To remove the clamping ring after removing the cap screws and the clamping screw of the The support ring are inserted into a variety of threaded holes jackscrews that press against the support ring press and move the clamping ring in the axial direction away from the reduction gear.

The invention will now be described on the basis of exemplary embodiments in conjunction with the drawing explained it shows

F i g. 1 shows a side view of a reduction gear mounted on a shaft, the hollow shaft of which is attached to a shaft is mounted and connected to this;

F i g. 2 shows an enlarged partial longitudinal section through the FIG. 1 device shown;

F i g. 3 is an end view of the FIG. 1 shown device;

F i g. 4 the support ring of FIG. 1; F i g. 5 the clamping ring of FIG. 1;

F i g. 6 shows a longitudinal section similar to FIG. 2, in which, however, the connection of the reduction gear with a shaft of different sizes is shown;

F i g. 7 the clamping ring of FIG. 6; and

8 shows the perspective view of a "thunderbird" wedge.

The F i g. 1-5 show a reduction gear 10 mounted on a shaft and connected to the shaft 12 is. The reduction gear is conventional and has a shaft 14, which is not of one drive source shown is driven, and a transmission 16 which is driven by the shaft 14 and drives a cylindrical hollow shaft 18. In the usual way, the hollow shaft 18 extends over the Side walls 20 of the housing of the reduction gear addition. The shaft 12 is via locking means 22 on both ends of the hollow shaft 18 connected or blocked with this. The locking means 22 comprise a Pair of interconnected rings, hereinafter referred to as support ring 24 and clamping ring 26. About half of the bore of the support ring 24, denoted by 28, has such a size that it is with the Outside of the hollow shaft extensions can engage while the other half, as at 30 shown is conical. The ring 24 is slotted at 32. Across the slot is a clamping screw 34 built in to pull the ring together and with part of the clamping ring 26 and the hollow shaft 18 to jam. In addition, the ring 24 is on both in the radial direction and in the axial direction many points 36 and 38 provided with threaded holes. These are used to hold head screws 40 and 42, the head screws 40 extending through corresponding bores 44 in the hollow shaft 18 extend.

The clamping ring 26 is slotted at 46 and has an axial cylindrical portion 48 with a central bore 50 with which the shaft 12 engages and a shoulder 52 which is so conical is designed that it adapts to the conical region 30 of the ring 24 and a radial Flange 54. The cylindrical portion 48 is smaller than the bore of the hollow shaft, so that in this way a possible rusting or seizing are prevented and the conical shoulder 52 with the conical region 30 of the ring 24 can come into engagement. When the ring 24 over the Head screw 34 is contracted, the clamping ring is compressed radially so that the Hollow shaft 18 is inevitably clamped. The flange 54 is bored at 56 in the axial direction provided, through which head screws 42 received by threaded bores 38 are inserted, so that the ring 26 can be pulled in the direction of the hollow shaft 18 and into the support ring 24 and the Clamping ring is keyed to the shaft by the action of the conical areas 30 and 52. Conventional internal splines 58 and 60 in the hollow shaft 18 and ring 26 and splines 62 and 64 in the shaft 12 and the ring 26 accommodate splines 66 and 68, whereby the hollow shaft 18 with the shaft 12 is wedged.

The principal difference between the device of FIG. 1 to 5 and that of FIGS. 6 and 7 consists of the size of the wave, in F i g. 6 is provided with the reference numeral 70, with which the reduction gear is connected is to be, and the form of the clamping ring, which is shown in F i g. 6 is provided with the reference number 72. The operation of the clamping ring 26 and the clamping ring 72 is the same. In Figures 6 and 7 the parts have the same reference numerals as in FIGS. 1 to 5 with the exception of the reference numerals 70 and 72.

The clamping ring 72 has a central bore which is used to receive the shaft 70, a conical one formed shoulder 52, which adapts to the conical region 30 of the ring 24, and a radial flange 54. The flange 54 is bored at 56 through the cap screws 42 be inserted, and also slotted at 46. The fundamental difference between the two Clamping rings consists in the fact that the cylindrical region 48 is absent in the case of the ring 72. Bzi the in F i g. 6 shown In the embodiment, the hollow shaft 18 is keyed directly onto the shaft 70 via the wedge 74. Apart from this the parts function in the same manner as in the embodiment of FIG. 1 to 5.

In each embodiment there is a large number of spaced apart in the clamping ring (see FIG. 5) arranged threaded bores 75 are provided. By removing the cap screws 42 and the

Clamping screw 34 and inserting and screwing jack screws into the bores 75 can Clamping ring moved away from the reduction gear in the axial direction and the connection separated.

To increase the resistance to wedge over-tightening, one wedge can be combined with another Cross-section can be used, for example a wedge, which because of its cross-section as a "thunderbird" wedge referred to as. Such a wedge is shown in FIG. 8 and given the reference numeral 76. That wedge can replace wedges 66, 68 and 74. Due to its special shape, especially because of its wide central longitudinal portion 78 which engages the bore of the hollow shaft becomes a greater resistance achieved against forces that cause a wedge over-tightening.

For this purpose 3 sheets of drawings

Claims (5)

Patent claims: 1. Device for connecting and locking a first shaft to a second shaft with larger diameter including the connection of one mounted on the second shaft Reduction gear with the first shaft, wherein the second shaft is a cylindrical hollow shaft, which with Areas is provided which extend away from the housing of the reduction gear in the axial direction, and wherein the first shaft extends through the hollow shaft with a split clamping ring with an inner bore for receiving the first shaft and an outer conical one Shoulder part, a support ring, the inner bore of which has an area that is with the second Which is in engagement with means for clamping the support ring onto the second shaft and with Means to pull the clamping ring in the axial direction against the support ring and thereby onto the first To clamp shaft, characterized in that the support ring (24) is slotted (32) and has a conical region (30) of its inner bore, which is complementary to the conical shoulder part (52) of the clamping ring (26,72) is formed, is in engagement with this and when the rings (24; 26, 72) are pulled towards one another, the clamping ring (26, 72) and thereby the clamping of the same on the first shaft (12,70) causes, and that the means for Clamps of the support ring (24) act on the second shaft (18) in the radial direction and at the same time the Clamp the support ring (24) onto the clamping ring (26,72). 2. Apparatus according to claim 1, characterized in that the means for pulling the clamping ring (26,72) in the axial direction against the support ring (24) at least one axial opening (56) in the clamping ring outside of the inner bore include at least one threaded bore (38) in the Support ring (24) aligned with the axial opening and one of the axial opening and the Head screw (42) received in the bore. 3. Apparatus according to claim 2, characterized in that the clamping ring (26,72) has a radial Has flange (54) through which the axial opening (56) extends. 4. Device according to one of the preceding claims, characterized in that the means for clamping the support ring (24) on the second shaft (18) and the clamping ring (26, 72) a Include clamping screw (34) which is used to pull together the ends of the support ring (24). 5. Device according to one of the preceding claims, characterized in that the support ring (24) provided with at least one threaded bore (36) extending in the radial direction is and that through the threaded hole a cap screw (40) for fastening the support ring (24) on the second shaft (18).